Description REPRODUCING APPARATUS AND METHOD AND COMPUTER READABLE RECORDING MEDIUM
STORING PROGRAM FOR EXECUTING THE METHOD Technical Field [1] This application claims the priority of Korean Patent Application No. 2003-86510, filed on December 1, 2003 in the Korean Intellectual ROperty Office, the disclosure of which is incorporated hαein in its entirety by refαence. [2] The present invention relates to a reproducing apparatus, and more particularly, to an apparatus and method for reproducing moving picture data including audio/video (AV) data and playback information of the AV data, and a computer readable recording medium storing a program for executing the method. Background Art [3] FIG. 1 is a reference diagram illustrating a basic structure of moving picture data including audio/video (AV) data and playback information of the AV data according to the conventional art. [4] Referring to FIG. 1, the moving picture data includes the AV data, which is recording unit data, and the playback information of the AV data, which is reproducing unit data. The recording unit data may be a clip layer 120, and the reproducing unit data may be a playlist layer 110. [5] A clip 121 from the recording unit data includes clip AV stream data 123 and clip information data 122. The clip AV stream data 123 includes audio data, video data, and so on, and the clip information data 122 corresponds on a one-to-one basis to the clip AV stream data 123 and contains characteristic information used in recording the clip AV stream data 123. [6] Reproducing unit data includes information for reproducing the clip 121, and the highest order data of the reproducing unit data is called playlist data. One playlist data 111 may include a plurality of playitem data 112, and one playitem data 112 is connected to one clip information data 122 in order to reproduce one clip AV stream data 123 connected to the clip information data 122. The playlist data 111 is used as a basic reproducing unit for a specific purpose in a reproducing apparatus. [7] FIG. 2 is a reference diagram illustrating a detailed structure of the playlist data shown in FIG. 1 according to the conventional art. [8] Referring to FIG. 2, playlist data 210, which is reproducing unit data, is in a
playlist file 200. The playlist file 200 includes the playlist data 210 and mark information data 230.
[9] The playlist data 210 includes a plurality of playitem data 220. Each playitem data 220 includes a clip information file name 221, which is used for playback, a used codec name 222, a multiangle information and corresponding clip information file name 223, playback control information 224, start and end time information 225, playback attribute information 226, and so on.
[10] FIG. 3 is a reference diagram illustrating a detailed structure of the clip data shown in FIG. 1 according to the conventional art.
[11] Referring to FIG. 3, clip AV stream data 320 in a clip 300, which is recording unit data, includes video data 321, audio data 322, and additional data 323. The additional data 323 may include bitmap subtitle data, text-based subtitle data, and the like.
[12] Clip information data 310 corresponds on a one-to-one basis to the AV stream data 320, and includes characteristic information used in recording corresponding AV stream data, that is, stream type information 311 of stream data in the AV stream data 320, stream coding information 312, entry point information 313 indicating a position at an arbitrary time, and sequence characteristic information 314 of the stream data.
[13] FIG. 4 is a schematic diagram of a conventional apparatus for reproducing moving picture data.
[14] Referring to FIG. 4, an apparatus 400 for reproducing moving picture data includes a playback control engine 410, which reads reproducing unit data and controls playback of AV stream data, a presentation engine 420, which decodes the AV stream data and displays the decoded data on a screen, a user interface controller 430, which receives a user input, and an output unit 440, which outputs video/audio data.
[15] The playback control engine 410 receives navigation data, such as a playlist file, parses playitems arranged in steps, confirms an object and contents to be reproduced, reads clip information data included in the playitems, confirms information necessary for reproducing corresponding clip AV stream data, and provides all information necessary for reproducing the clip AV stream data to the presentation engine 420. The playback control engine 410 includes a set of functions, that is, an application program interface (API) 411, by which the above functions can be provided.
[16] Further, the playback control engine 410 receives from the user interface controller 430 a user input generated during the playback, and properly operates based on information recorded in the reproducing unit data.
[17] A player register 412 in the playback control engine 410 stores or reads in-
formation regarding the playback and playback control.
[18] For example, if it is assumed that AV data has audio data in a plurality of languages, audio format information and information about what kind of audio data is in the AV stream data are included in the reproducing unit data. Language information of the audio data to be initially used is recorded in the player register 412, and the playback control engine 410 reads the audio data language information recorded in the player register 412 and controls the presentation engine 420 to read the corresponding audio data. If a user wishes to change the audio language, the user interface controller 430 receives the user's corresponding input, and the playback control engine 410 parses contents from the user interface controller 430 and controls the presentation engine 420 to reproduce the audio data in a new language based on the information recorded in the reproducing unit data.
[19] The presentation engine 420 receives and decodes stream data of a file including the AV data according to instructions of a function, namely, a playback control function, of the playback control engine 410, and outputs the decoded data to the output unit 440.
[20] The reproducing apparatus simply reproduces moving picture data including the reproducing unit data. That is, the reproducing apparatus can only sequentially reproduce the moving picture data from a predetermined time to a predetermined time. Accordingly, there is a demand for a higher level method of controlling the playback control engine 410 to reproduce the moving picture data according to various scenarios in an interactive mode, such as in a game or during a chatting session, as well as to sequentially reproduce the data.
[21] An approach in this regard is a window media programming method, which is provided by Microsoft Company, used in a personal computer (PC). However, the window media programming method cannot be used without the WINDOWS operating system. Java Media Framework (JMF) based on Java language that is a programming language independent of a platform, however, can be used in various platform environments, such as a PC and a mobile phone, to provide various interface functions and reproduce media data.
[22] FIG. 5 is a reference diagram illustrating a basic structure of a conventional JMF.
[23] Refαring to FIG. 5, a JMF 500 for reproducing media data includes a datasource 510, a JMF player 520, and a control 530.
[24] The datasource 510 manages the lifecycle of the media data. The datasource 510 is connected to a media data source through a uniform resource identifier (URI), and
transmits data to the JMF player 520 connected thereto.
[25] The JMF player 520 reproduces the data transmitted from the datasource 510. The JMF player 520 confirms a media data type to reproduce the transmitted data, and transmits the data to an output unit, such as a speaker 540 or a monitor 550, using each decoder necessary for the data type.
[26] The control 530 controls additional functions provided by the datasource 510 or the JMF player 520. For example, the control 530 uses a GainControl interface to control audio sound volume.
[27] The JMF 500 supports AV data of numerous formats such as AVI, moving picture experts group (MPEG) format, MP3 format, Real Audio format, and so on, but cannot support moving picture data including AV data as recording unit data and playback information of the AV data as reproducing unit data. Disclosure of Invention Technical Problem
[28] Accordingly, a reproducing apparatus, which can reproduce moving picture data including AV data as recording unit data and playback information of the AV data as reproducing unit data, is demanded to work together with a JMF application easily applicable to various platforms. Technical Solution
[29] According to the present invention, a reproducing apparatus and method, which can be applied to various platforms in reproducing moving picture data including audio/video (AV) data and playback information of the AV data by using an extended Java Media Framework , and a computer readable recording medium having a program for the executing method are provided. Advantageous Effects
[30] As described above, the reproducing apparatus is independent of a platform such that it can be easily applied to various platforms in reproducing moving picture data including AV data and playback information of the AV data. Description of Drawings
[31] These and/or other aspects and advantages of the invention will become apparent and more readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:
[32] FIG. 1 is a reference diagram illustrating a basic structure of moving picture data including audio/video (AV) data and playback information of the AV data according to the conventional art;
[33] FIG. 2 is a reference diagram illustrating a detailed structure of playlist data shown in FIG. 1 according to the conventional art; [34] FIG. 3 is a reference diagram illustrating a detailed structure of clip data shown in FIG. 1 according to the conventional art; [35] FIG. 4 is a schematic block diagram of a conventional apparatus for reproducing moving picture data; [36] FIG. 5 is a reference diagram illustrating a basic structure of a conventional Java Media Framework (JMF); [37] FIG. 6 is a reference diagram illustrating a basic structure of an extended JMF according to an embodiment of the present invention; [38] FIG. 7 is a reference diagram illustrating a basic data structure of the extended JMF according to an embodiment of the present invention; [39] FIG. 8 is a diagram illustrating a detailed structure of the extended JMF shown in FIG. 6 according to an embodiment of the present invention; [40] FIG. 9 is a diagram illustrating a detailed structure of an extended datasource package shown in FIG. 8 according to an embodiment of the present invention; [41] FIG. 10 is a diagram illustrating a detailed structure of an extended media package shown in FIG. 8 according to an embodiment of the present invention; [42] FIG. 11 is a diagram illustrating a detailed structure of an extended control package shown in FIG. 8 according to an embodiment of the present invention; [43] FIG. 12 is a schematic block diagram of a reproducing apparatus including the extended JMF according to an embodiment of the present invention; [44] FIG. 13 is a flow chart of a method of reproducing moving picture data using the reproducing apparatus including the extended JMF according to an embodiment of the present invention; and [45] FIG. 14 is a flow chart of a method of controlling the playback of the moving picture data in the reproducing apparatus including the extended JMF according to an embodiment of the present invention. Best Mode [46] According to an aspect of the present invention, there is provided a reproducing apparatus including an extended Java Media Framework to control a playback of moving picture data that includes audio/video (AV) data and playback information of the AV data. [47] In an aspect of the present invention, the extended Java Media Framework includes at least one of: a datasource package unit, which parses the playback irrformation of
the moving picture data and transmits the parsed playback irrformation to a media package; the media package unit, which controls the playback of the moving picture data according to the playback information received from the datasource package; or a control package unit, which controls additional functions providable in relation to the playback of the moving picture data.
[48] In an aspect of the present invention, the datasource package includes at least one of: a playlist class, which fetches information in a playlist; a playitem class, which fetches information in a playitem; a clipinfo class, which fetches information in a clipinfo; or a text subtitle class, which fetches information regarding a text subtitle.
[49] In an aspect of the present invention, the media package includes at least one of: a player class, which controls the playback of the moving picture data; a manager class, which generates and manages a mediasource and player class; or a media locator class, which finds a position of a data file.
[50] In an aspect of the present invention, the control package includes at least one of: an angle control class, which controls an angle; a subtitle control class, which controls a subtitle; an audio control class, which controls an audio; a display control class, which controls a display; a player control class, which controls a player; or a playback control class, which controls a playback.
[51] In an aspect of the present invention, the reproducing apparatus includes a playback control engine, which controls to reproduce the moving picture data according to a control of the Java Media Framework; and a presentation engine, which receives a control of the playback control engine and reproduces the moving picture data.
[52] In an aspect of the present invention, the parsing of the playback information includes at least one of: fetching information in a playlist; fetching information in a playitem; fetching information in a clipinfo; or fetching information regarding a text subtitle.
[53] In an aspect of the present invention, the controlling of the playback of the moving picture data includes at least one of: controlling the playback of the moving picture data; generating and managing a mediasource and player class; or finding a position of a data file.
[54] In an aspect of the present invention, the controlling of the additional functions includes at least one of: controlling an angle; controlling a subtitle; controlling an audio; controlling a display; controlling a player; or controlling a playback.
[55] According to another aspect of the present invention, there is provided a computer
readable recording medium having embodied thereon a computer program for executing a reproducing method, the method including controlling a playback of moving picture data, which includes AV data and playback information of the AV data, using an extended Java Media Framework inheriting a Java Media Framework structure. Mode for Invention
[56] Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout. The embodiments are described below to explain the present invention by refαring to the figures.
[57] FIG. 6 is a reference diagram illustrating a basic structure of an extended Java Media Framework (JMF) according to an embodiment of the present invention.
[58] Referring to FIG. 6, an extended JMF 600 includes an extended datasource package unit 610, an extended media package unit 620, and an extended control package unit 630. Each of the extended package units 610, 620, and 630 includes at least one class. The extended JMF 600 may include any combination of the package units in addition to all three being implemented together
[59] The extended datasource package unit 610 parses playback information of a clipinfo file 650 or a playlist file 640 of moving picture data as well as media data provided from an existing JMF, and transmits the parsed playback information to the extended media package unit 620 such that the extended media package unit 620 can reproduce clip data designated by the playlist file 640.
[60] Reproducing unit data arranged in steps can be grouped in their own classes, such that each class includes application program interface (API) functions used to provide information in the reproducing unit data in each step to a player or a user. Examples of the API functions include a clip file name, the number of angles, an angle data file, and the like, which will be explained later in detail.
[61] The extended media package unit 620 reproduces the moving picture data according to the playback information received from the extended datasource package unit 610. For example, the extended media package unit 620 starts a playback of the moving picture data, stops the playback, adjusts a playback speed, generates a mediasource and player class based on reproducing unit data, such as a playlist, and reads file information in a disk or a memory to find a corresponding file, which will be explained in detail later.
[62] The extended control package unit 630 provides additional functions providable in
relation to the playback of the moving picture data, which will be explained in detail later.
[63] FIG. 7 is a reference diagram of a basic data structure of the extended JMF shown in FIG. 6 according to an embodiment of the present invention.
[64] The extended JMF includes an extended datasource package 710, an extended media package 720, and an extended control package 730. Each package 710, 720 and 730 includes at least one class that provides functions executed by the package, and each class includes API functions used to perform its own functions.
[65] A detailed structure of the extended JMF having the above data structure will be explained with reference to FIG. 8.
[66] FIG. 8 is a diagram of a detailed structure of the extended JMF 600 shown in FIG. 6 according to an embodiment of the present invention.
[67] Referring to FIG. 8, an extended datasource package unit 610 includes a playlist class 611, a playitem class 612, a clipinfo class 613, and a text subtitle class 614. The extended datasource package unit 610 may include only one of the classes or any combination thereof.
[68] The playlist class 611 fetches information in a playlist, the playitem class 612 fetches information in a playitem, the clipinfo class 613 fetches information in a clipinfo, and the text subtitle class 614 fetches information regarding a text subtitle.
[69] The extended media package unit 620 includes a player class 621, a manager class 622, and a media locator class 623. The extended media package unit 620 may include only one of the classes or may include any combination of the classes.
[7)] The player class 621 controls the playback of the moving picture data, the manager class 622 generates a mediasource and player class, and the media locator class 623 finds a position of a data file.
[71] The extended control package unit 630 includes an angle control class 631, a subtitle control class 632, an audio control class 633, a display control class 634, a player register control class 635, and a playback control class 636. The extended control package unit 630 may include only one of the classes or may include any combination of the classes.
[72] The angle control class 631 controls an angle, the subtitle control class 632 controls a subtitle, the audio control class 633 controls an audio, the display control class 634 controls a display, the player register control class 635 controls a player register, and the playback control class 636 controls a playback.
[73] FIG. 9 is a diagram illustrating a detailed structure of the extended datasource
package unit 610 shown in FIG. 8.
[74] Referring to FIG. 9, a package name 900 of the extended datasource package is org.blu-ray .datasource, and names of classes in the extended datasource package are org.blu-ray .datasource.PlayList 910, org.blu-ray .datasource.PlayItem 920, org.blu-ray .datasource.ClipInfo 930, org.blu-ray.datasource.TextST 940.
[75] Reproducing unit data arranged in steps can be grouped in their own classes, such that each class provides information in the reproducing unit data in each step to a player or a user.
[76] The org.blu-ray. datasource .PlayList class 910 provides information in a playlist file to a player or a user. APIs included in the org.blu-ray .datasource.PlayList 910 class are getNumberOfPlayItem() 911, getPlayltem(num) 912, getMark(markselect,num) 913, getNumberOfMark(markselect) 914. The functions of the APIs are defined as shown in Table 1.
[77] Table 1 [78]
[79] The org.blu-ray.datasource.PlayItem class 920 provides information in a playitem file to a player or a user. APIs included in the org.blu-ray .datasource.PlayItem class 920 are IsMultiAngle() 921, getNumerOfAngle() 922, and getName- OfClipInfo(anglenum) 923, and functions of the APIs are defined as shown in Table 2.
[82] The org.blu-ray.datasource.ClipInfo class 930 provides information in a clipinfo file to a player or a user. APIs included in the org.blu-ray .datasource.ClipIrrfo class 930 are getNameOfClipO 931, getAudioLanguages() 932, and getSubtitleLanguages() 933, and functions of the APIs are defined as shown in Table 3.
[83] Table 3 [84]
[85] APIs included in the org.blu-ray.datasource.TextST class 940 are getLanguage() 941 and getStyle() 942, and functions of the APIs are defined as shown in Table 4.
[86] Table 4 [87]
[88] FIG. 10 is a diagram illustrating a detailed structure of the extended media package unit 620 shown in FIG. 8 according to an embodiment of the present invention.
[89] Referring to FIG. 10, a package name of the extended media package is org.blu-ray .media 1000, and class names of classes in the extended media package are org.blu-ray .media.Player 1010, org.blu-ray .media.Manager 1020, and org.blu-ray .media.MediaLocator 1030.
[90] The org.blu-ray .media.Player class 1010 reproduces moving picture data, that is, a playlist, containing moving picture data information and playback unit information, stops and resumes the playback, or stops a screen while performing the playback. APIs included in the org.blu-ray .media.Player class 1010 are Play() 1011, pauseOn() 1012, pauseOff() 1013, and stillOff() 1014, and functions of the APIs are defined as shown in Table 5.
[91] Table 5 [92]
[93] The org.blu-ray .media.Manager class 1020 generates a mediasource and player based on reproducing unit data, such as a playlist to be reproduced in the extended JMF. APIs included in the org.blu-ray .media.Manager class 1020 are cre- atePlayerPL(PlayList pi) 1021, createPlayerPLAtPlayItem(PlayList pi, Playitem pi) 1022, createPlayerPLAtMark(PlayList pl, PlayListMark mark) 1023, createPlayer- PLAtSpecifiedItem(PlayList pi, Time t) 1024, skipToNextPoint() 1025, skipBackTo- PrevPointQ 1026, and TerminatePlayList() 1027, and functions of the APIs are defined
as shown in Table 6.
[94] Table 6
[95]
[96] The org.blu-ray .media.MediaLocator class 1030 reads file irrformation in a disk, a memory, or a database and finds a corresponding file.
[97] Table 7 [98] Class name: org.blu-ray .media.MediaLocator class
[99] FIG. 11 is a diagram illustrating a detailed structure of the extended control package unit 630 shown in FIG. 8 according to an embodiment of the present inve
ntion.
[100] Referring to FIG. 11, a package name of the extended control package is org.blu-ray .media.control 1100, and class names of classes included in the extended control package are org.blu-ray .media.control.anglecontrol 1110, org.blu-ray .media.control.subtitlecontrol 1120, org.blu-ray .media.control.audiocontrol 1130, org.blu-ray .media.control.displaycontrol 1140, org.blu-ray .media.control.playercontrol 1150, and org.blu-ray .media.control.playbackcontrol 1160.
[101] The org.blu-ray .media.control.anglecontrol class 1110 changes an angle to show a moving picture, which has been taken by several cameras at the same time, according to a user's selection. APIs included in the org.blu-ray .media.control.anglecontrol class 1110 are SetAngle(num) 1111 and getAngle() 1112, and functions of the APIs are defined as shown in Table 8.
[102] Table 8
[103]
[104] The org.blu-ray .media.control.subtitlecontrol class 1120 changes a subtitle to select a subtitle style (a text subtitle or a bitmap subtitle) or a language. APIs included in the org.blu-ray .media.control.subtitlecontrol class 1120 are IsSelectBitmapO 1121, SetST(num) 1122, getCunentLanguage() 1123, and SetTextSTStyle(style) 1124, and functions of the APIs are defined as shown in Table 9.
[107] The org.blu-ray .media.control.audiocontrol class 1130 changes an audio setting to select audio in moving picture data according to a language. APIs included in the org.blu-ray .media.control.audiocontrol class 1130 are setAudio(num) 1131 and getCunentLanguageO 1132, and functions of the APIs are defined as shown in Table 10.
[108] Table 10 [109]
[HO] The org.blu-ray .media.control.displaycontrol class 1140 changes a size or a position of a screen on which moving picture data is displayed. APIs included in the org.blu-ray .media.control.displaycontrol class 1140 are downconversion() 1141, resize(size) 1142, displayPosition(position) 1143, and crop(size) 1144, and functions of the APIs are defined as shown in Table 11.
[111] Table 11 [112]
[113] The org.blu-ray .media.control.playercontrol class 1150 reads or stores a register value in the reproducing apparatus. APIs included in the org.blu-ray .media.control.playercontrol class 1150 are getPSR(num) 1151, getGPR(num) 1152, and setGPR(num,data) 1153, and functions of the APIs are defined as shown in Table 12.
[114] Table 12 [115]
[116] The org.blu-ray .media.control.playbackcontrol class 1160 changes a playback point of moving picture data to predefined points of the moving picture data at predetermined intervals or for specific purposes, or changes a playback speed of the moving picture data. APIs included in the org.blu-ray .media.control.playbackcontrol class 1160 are setSpeed(speed) 1161, skipMark(markselect) 1162, and skipBackMark(markselect) 1163, and functions of the APIs are defined as shown in Table 13.
[117] Table 13 [118]
[119] FIG. 12 is a schematic diagram of a reproducing apparatus including an extended JMF according to an embodiment of the present invention.
[120] Refaring to FIG. 12, a reproducing apparatus 1200 includes an extended JMF 1210, a playback control engine 1220, a presentation engine 1230, an application program 1240, a memory 1250, a disk or local storage 1260, and a video/audio output unit 127).
[121] The application program 1240 receives a user input related to a moving picture data playback request or a moving picture data playback control request, and transmits the moving picture data playback request to an extended media 1212 and the moving picture data playback control request to an extended control 1213.
[122] The extended media 1212 receives the moving picture data playback request from the application program 1240 and controls an extended datasource 1211 to read playb ack irrformation of moving picture data to be reproduced, and receives the playback information of the moving picture data from the extended datasource 1211 and controls the playback control engine 1220 to reproduce the moving picture data based on the playback information. Further, the extended media 1212 receives control information from the extended control 1213 and controls the playback control engine 1220 to reproduce the moving picture data based on the control information, and receives control status information irom the playback control engine 1220 and transmits the control status information to the extended control 1213.
[123] The extended datasource 1211 receives instructions from the extended media 1212, reads the playback information of the moving picture data, that is, playlist data 1251 and clipinfo data 1252, irom the memory 1250, and transmits the read data to the extended media 1212.
[124] The extended control 1213 receives the moving picture data playback control request from the application program 1240 providing, for example, a graphical user interface (GUI), parses the moving picture data playback control request, and transmits the parsed control result to the extended media 1212.
[125] The playback control engine 1220 receives a moving picture data playback command or a moving picture data playback control command from the extended media 1212, and controls the presentation engine 1230 to reproduce and output the moving picture data. Further, the playback control engine 1220 transmits the playback command result or control status information, such as an event occuning during the playback, to the extended media 1212.
[126] The presentation engine 1230 reads and reproduces clip AV stream data from the disk or local memory 1260 according to a control signal of the playback control engine 1220. The reproduced data is output to the output unit 1210.
[127] FIG. 13 is a flowchart illustrating a method of reproducing moving picture data in the reproducing apparatus including the extended JMF according to an embodiment of the present invention.
[128] Referring to FIG. 13, in operation 1310, the extended media 1212 receives a
moving picture data playback request from the application program 1240. The extended media 1212 controls the extended datasource 1211 to obtain playback information of the moving picture data requested to be reproduced.
[129] In operation 1320, the extended datasource reads the playback irrformation for the moving picture data requested by the extended media 1212 irom the memory 1250. The playback information includes playlist data 1251 and clipinfo data 1252.
[130] Next, in operation 1330, the extended media 1212 receives the playback information read by the extended datasource 1211, and controls the playback control engine 1220 to reproduce the moving picture data using the playback information.
[131] Then, in operation 1340, the playback control engine 1220 receives first control information irom the extended media 1212, and transmits information necessary to reproduce AV stream data to the presentation engine 1230.
[132] In operation 1350, the presentation engine 1230 receives second control information irom the playback control engine 1220, reproduces the clip AV stream data, and outputs the reproduced data to the output unit 127).
[133] FIG. 14 is a flow chart illustrating a method of controlling the playback of the moving picture data in the reproducing apparatus including the extended JMF according to another embodiment of the present invention.
[134] In operation 1410, the extended control 1213 receives a control command related to the playback of moving picture data from the application program 1240.
[135] In operation 1420, the extended control 1213 parses the received control command, and transmits control information according to the parsing result to the extended media 1212.
[136] In operation 1430, the extended media 1212 transmits a playback control command according to the control information received from the extended control 1213 to the playback control engine 1220.
[137] In operation 1440, the playback control engine 1220 carries out the received playback control command, and feeds back the result or status irrformation, such as an event occuiring during the playback, to the extended media 1212. The extended media 1212 may manage the received status irrformation and transmit the managed status information to the extended control 1213.
[138] The present invention may be embodied in a code program, which can be read by a computer, on a computer readable recording medium. The computer readable recording medium includes all kinds of recording apparatuses on which computer readable data are stored. The computer readable recording media includes storage
media such as magnetic storage media (e.g., ROM's, floppy disks, hard disks, etc.), optically readable media (e.g., CD-ROMs, DVDs, etc.) and carrier waves (e.g., transmissions over the Internet). Also, the computer readable recording media can be stored on computer systems connected through a network and executed in a distributed mode.
[139] Although a few embodiments of the present invention have been shown and described, it would be appreciated by those skilled in the art that changes may be made in these embodiments without departing irom the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents. Industrial Applicability
[140] The present invention is applicable to an apparatus and method for reproducing moving picture data including audio/video (AV) data and playback information of the AV data.